Investigating the Rate of Reaction of Calcium Carbonate Chips

Study on reaction rate of calcium carbonate chips: ------------- In the reaction between calcium carbonate (marble chips) and hydrochloric acid, reaction takes place and carbon dioxide in the gas escapes. In this experiment, we aimed to investigate how the reaction rate of marble small pieces and large pieces change. Focus on surface area and concentration. Experiments were carried out by reacting CaCO 3 with hydrochloric acid while balancing the mass changes recorded over a set period of time.

In this survey, we are investigating the reaction rate. Investigate the reaction rate between calcium carbonate and hydrochloric acid and investigate factors affecting the reaction rate. The reaction rate is the time at which the chemical reaction takes place. A reaction is instantaneous, as explosive explosive (KNO 3) is as slow as other reactions like iron oxidation (rust). The reaction rate is related to "collision theory", and the reaction speed is slow, the possibility of collision is low, indicating that the collision is very high when the reaction speed is fast.

Examine how acid concentration affects the reaction rate of hydrochloric acid and calcium carbonate (magnesium band) --- My goal is how acid concentration changes influence the reaction rate of CaCO 3 and HCl It is to investigate. We change only one of the variables to make the experiment fair. It is the concentration of acid. In all the experiments we had to maintain the amount of acid, the quality and size of the marble chip, and the temperature of the acid to ensure a fair test.

The reaction rate is related to the rate at which this occurs. There are many variables that influence the reaction rate, but in this experiment we investigate the effect of concentration on reaction rate. Objective In this survey, I would like to investigate the influence of hydrochloric acid concentration on the reaction rate of marble chips (calcium carbonate). The plan I'm planning is between calcium carbonate (CaCO 3) (marble chip shape) and hydrochloric acid (HCl). Hydrochloric acid + calcium carbonate